29 results on '"Balkaya, Mustafa"'
Search Results
2. Conditional deletion of LRRC8A in the brain reduces stroke damage independently of swelling-activated glutamate release
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Balkaya, Mustafa, Dohare, Preeti, Chen, Sophie, Schober, Alexandra L., Fidaleo, Antonio M., Nalwalk, Julia W., Sah, Rajan, and Mongin, Alexander A.
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- 2023
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3. Optimizing functional outcome endpoints for stroke recovery studies
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Balkaya, Mustafa and Cho, Sunghee
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- 2019
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4. MRI Heralds Secondary Nigral Lesion after Brain Ischemia in Mice: A Secondary Time Window for Neuroprotection
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Prinz, Vincent, Hetzer, Anna-Maria, Müller, Susanne, Balkaya, Mustafa, Leithner, Christoph, Kronenberg, Golo, and Endres, Matthias
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- 2015
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5. Acute neuroprotection by pioglitazone after mild brain ischemia without effect on long-term outcome
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Ji, Shengbo, Kronenberg, Golo, Balkaya, Mustafa, Färber, Katrin, Gertz, Karen, Kettenmann, Helmut, and Endres, Matthias
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- 2009
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6. Recognition Memory Impairments After Subcortical White Matter Stroke in Mice
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Blasi, Francesco, Wei, Ying, Balkaya, Mustafa, Tikka, Saara, Mandeville, Joseph B., Waeber, Christian, Ayata, Cenk, and Moskowitz, Michael A.
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- 2014
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7. Assessing Post-Stroke Behavior in Mouse Models of Focal Ischemia
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Balkaya, Mustafa, Kröber, Jan M, Rex, Andre, and Endres, Matthias
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- 2013
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8. Essential role of interleukin-6 in post-stroke angiogenesis
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Gertz, Karen, Kronenberg, Golo, Kälin, Roland E., Baldinger, Tina, Werner, Christian, Balkaya, Mustafa, Eom, Gina D., Hellmann-Regen, Julian, Kröber, Jan, Miller, Kelly R., Lindauer, Ute, Laufs, Ulrich, Dirnagl, Ulrich, Heppner, Frank L., and Endres, Matthias
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- 2012
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9. Stress Worsens Endothelial Function and Ischemic Stroke via Glucocorticoids
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Balkaya, Mustafa, Prinz, Vincent, Custodis, Florian, Gertz, Karen, Kronenberg, Golo, Kroeber, Jan, Fink, Klaus, Plehm, Ralph, Gass, Peter, Laufs, Ulrich, and Endres, Matthias
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- 2011
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10. Heart Rate Contributes to the Vascular Effects of Chronic Mental Stress: Effects on Endothelial Function and Ischemic Brain Injury in Mice
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Custodis, Florian, Gertz, Karen, Balkaya, Mustafa, Prinz, Vincent, Mathar, Ilka, Stamm, Christoph, Kronenberg, Golo, Kazakov, Andrey, Freichel, Marc, Böhm, Michael, Endres, Matthias, and Laufs, Ulrich
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- 2011
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11. Intravenous Rosuvastatin for Acute Stroke Treatment: An Animal Study
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Prinz, Vincent, Laufs, Ulrich, Gertz, Karen, Kronenberg, Golo, Balkaya, Mustafa, Leithner, Christoph, Lindauer, Ute, and Endres, Matthias
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- 2008
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12. Maternal neglect results in reduced telomerase activity and increased oxidative load in rats.
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Sarıbal, Devrim, Kireçtepe Aydın, Aslı, Kılıç, Mahmut Alp, Shakil, Faariah, and Balkaya, Mustafa
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TELOMERASE ,TELOMERES ,PSYCHOLOGICAL stress ,BLOOD cells ,RATS - Abstract
A growing number of studies in humans have linked chronic stress, particularly during early life, to telomere shortening and increased oxidative stress. The effect of stress on telomerase activity, however, is understudied. Given the importance of telomere attrition in a wide range of diseases and immunosenescence, further research to elucidate the mechanisms by which stress alters telomere dynamics is required. However, animal studies are lacking, and it is not clear whether widely used stress models reliably mimic the accelerated telomere shortening observed humans. To this end, we evaluated the effect of maternal separation with early weaning (MSEW) on telomere length, telomerase activity, and oxidative load in rats. A total of 45 animals were used, (17 control: 3 males and 11 females and 28 MSEW: 11 males, 17 females), which were then sacrificed one year after birth. Importantly, we determined that telomerase activity measured in plasma was significantly decreased in the MSEW group, along with a non-significant reduction in telomere length from whole blood cells. We also examined the levels of three oxidative markers: plasma malondialdehyde, glutathione in erythrocytes, and plasma catalase activity. Malondialdehyde was found to be elevated in the plasma, indicating increased lipid peroxidation. Interestingly, while the antioxidant glutathione was upregulated, catalase activity remained unchanged. Our findings indicate that the rat MSEW model induces chronic changes to telomere dynamics and oxidative load and can capitulate long term aspects of human childhood stress. [ABSTRACT FROM AUTHOR]
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- 2021
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13. Non‐invasive peripheral focused ultrasound neuromodulation of the celiac plexus ameliorates symptoms in a rat model of inflammatory bowel disease.
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Akhtar, Kainat, Hirschstein, Zall, Stefanelli, Allison, Iannilli, Emilia, Srinivasan, Aditya, Barenboim, Linda, Balkaya, Mustafa, Cunha, Alexandra, Audil, Aliyah, Kochman, Eliyahu M., Chua, Fuyee, Ravi, Maya, Mikkilineni, Saisree, Watkins, Hanel, O'Connor, William, Fan, Ying, Cotero, Victoria, Ashe, Jeffrey, Puleo, Christopher, and Kao, Tzu‐Jen
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INFLAMMATORY bowel diseases ,SOLAR plexus ,ULTRASONIC imaging ,ANIMAL disease models ,SYMPTOMS ,GLUTEN allergenicity - Abstract
New Findings: What is the central question of this study?Does peripheral non‐invasive focused ultrasound targeted to the celiac plexus improve inflammatory bowel disease?What is the main finding and its importance?Peripheral non‐invasive focused ultrasound targeted to the celiac plexus in a rat model of ulcerative colitis improved stool consistency and reduced stool bloodiness, which coincided with a longer and healthier colon than in animals without focused ultrasound treatment. The findings suggest that this novel neuromodulatory technology could serve as a plausible therapeutic approach for improving symptoms of inflammatory bowel disease. Individuals suffering from inflammatory bowel disease (IBD) experience significantly diminished quality of life. Here, we aim to stimulate the celiac plexus with non‐invasive peripheral focused ultrasound (FUS) to modulate the enteric cholinergic anti‐inflammatory pathway. This approach may have clinical utility as an efficacious IBD treatment given the non‐invasive and targeted nature of this therapy. We employed the dextran sodium sulfate (DSS) model of colitis, administering lower (5%) and higher (7%) doses to rats in drinking water. FUS on the celiac plexus administered twice a day for 12 consecutive days to rats with severe IBD improved stool consistency scores from 2.2 ± 1 to 1.0 ± 0.0 with peak efficacy on day 5 and maximum reduction in gross bleeding scores from 1.8 ± 0.8 to 0.8 ± 0.8 on day 6. Similar improvements were seen in animals in the low dose DSS group, who received FUS only once daily for 12 days. Moreover, animals in the high dose DSS group receiving FUS twice daily maintained colon length (17.7 ± 2.5 cm), while rats drinking DSS without FUS exhibited marked damage and shortening of the colon (13.8 ± 0.6 cm) as expected. Inflammatory cytokines such as interleukin (IL)‐1β, IL‐6, IL‐17, tumour necrosis factor‐α and interferon‐γ were reduced with DSS but coincided with control levels after FUS, which is plausibly due to a loss of colon crypts in the former and healthier crypts in the latter. Lastly, overall, these results suggest non‐invasive FUS of peripheral ganglion can deliver precision therapy to improve IBD symptomology. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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14. CD36 deficiency reduces chronic BBB dysfunction and scar formation and improves activity, hedonic and memory deficits in ischemic stroke.
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Balkaya, Mustafa, Kim, Il-doo, Shakil, Faariah, and Cho, Sunghee
- Abstract
Ameliorating blood–brain barrier disruption and altering scar formation dynamics are potential strategies that may improve post-stroke recovery. CD36 is a class B scavenger receptor that plays a role in innate immunity, inflammation and vascular dysfunction and regulates post-stroke injury, neovascularization, reactive astrogliosis and scar formation. By subjecting WT and CD36KO mice to different MCAo occlusion durations to generate comparable acute lesion sizes, we addressed the role of CD36 in BBB dysfunction, scar formation and recovery. The majority of stroke recovery studies primarily focus on motor function. Here, we employed an extensive behavioral test arsenal to evaluate psychological and cognitive endpoints. While not evident during the acute phase, CD36 deficient mice displayed significantly attenuated BBB leakage and scar formation at three months after stroke compared to wild-type littermates. Assessment of motor (open field, rotarod), anxiety (plus maze, light-dark box), depression (forced swim, sucrose preference) and memory tests (water maze) revealed that CD36 deficiency ameliorated stroke-induced behavioral impairments in activity, hedonic responses and spatial learning and strategy switching. Our findings indicate that CD36 contributes to stroke-induced BBB dysfunction and scar formation in an injury-independent manner, as well as to the chronic motor and neurophysiological deficits in chronic stroke. [ABSTRACT FROM AUTHOR]
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- 2021
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15. Remote Postischemic Conditioning Promotes Stroke Recovery by Shifting Circulating Monocytes to CCR2+ Proinflammatory Subset.
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Jiwon Yang, Balkaya, Mustafa, Beltran, Cesar, Ji Hoe Heo, and Sunghee Cho
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MONOCYTES , *STROKE , *NEURAL development , *BRAIN injuries , *IMMUNE reconstitution inflammatory syndrome , *STROKE patients - Abstract
Brain injury from stroke is typically considered an event exclusive to the CNS, but injury progression and repair processes are profoundly influenced by peripheral immunity. Stroke stimulates an acute inflammatory response that results in a massive infiltration of peripheral immune cells into the ischemic area. While these cells contribute to the development of brain injury, their recruitment has been considered as a key step for tissue repair. The paradoxical role of inflammatory monocytes in stroke raises the possibility that the manipulation of peripheral immune cells before infiltration into the brain could influence stroke outcome. One such manipulation is remote ischemic limb conditioning (RLC), which triggers an endogenous tolerance mechanism. We observed that mice subjected to poststroke RLC shifted circulating monocytes to a CCR2 + proinflammatory monocyte subset and had reduced acute brain injury, swelling, and improved motor/gait function in chronic stroke. The RLC benefits were observed regardless of injury severity, with a greater shift to a CCR2 1 subset in severe stroke. Adoptive transfer of CCR2-deficient monocytes abolished RLC-mediated protection. The study demonstrates the importance of RLC-induced shift of monocytes to a CCR2 + proinflammatory subset in attenuating acute injury and promoting functional recovery in chronic stroke. The defined immune-mediated mechanism underlying RLC benefits allows for an evidence-based framework for the development of immune-based therapeutic strategies for stroke patients. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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16. Relief Following Chronic Stress Augments Spreading Depolarization Susceptibility in Familial Hemiplegic Migraine Mice.
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Balkaya, Mustafa, Seidel, Jessica L., Sadeghian, Homa, Qin, Tao, Chung, David Y., Eikermann-Haerter, Katharina, van den Maagdenberg, Arn M.J.M., Ferrari, Michel D., and Ayata, Cenk
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SPREADING cortical depression , *MIGRAINE aura , *MIGRAINE , *WHITE noise , *PSYCHOLOGICAL stress , *MISSENSE mutation - Abstract
Cortical spreading depolarization (CSD) is the electrophysiological substrate of migraine aura, and a putative trigger of trigeminovascular activation and migraine headache. Many migraineurs report stress or relief after a stress triggers an attack. We tested whether various stress conditions might modulate CSD susceptibility and whether this is dependent on genetic factors. Male and female wild type and familial hemiplegic migraine type1 (FHM1) knock-in mice heterozygous for the S218L missense mutation were subjected to acute or chronic stress, or chronic stress followed by relief (36 h). Acute stress was induced by restraint and exposure to bright light and white noise (3 h). Chronic stress was induced for 28 days by two cycles of repeated exposure of mice to a rat (7 days), physical restraint (3 days), and forced swimming (3 days). Electrical CSD threshold and KCl-induced (300 mM) CSD frequency were determined in occipital cortex in vivo at the end of each protocol. Relief after chronic stress reduced the electrical CSD threshold and increased the frequency of KCl-induced CSDs in FHM1 mutants only. Acute or chronic stress without relief did not affect CSD susceptibility in either strain. Stress status did not affect CSD propagation speed, duration or amplitude. In summary, relief after chronic stress, but not acute or chronic stress alone, augments CSD in genetically susceptible mice. Therefore, enhanced CSD susceptibility may explain why, in certain patients, migraine attacks typically occur during a period of stress relief such as weekends or holidays. • Spreading depolarization is the electrophysiological substrate of migraine aura. • Relief after chronic stress enhanced spreading depolarizations in FHM1 mutants only. • Acute or chronic stress alone did not alter spreading depolarization susceptibility. • Our findings may explain the "weekend migraine" phenomenon. [ABSTRACT FROM AUTHOR]
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- 2019
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17. Genetics of stroke recovery: BDNF val66met polymorphism in stroke recovery and its interaction with aging.
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Balkaya, Mustafa and Cho, Sunghee
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STROKE , *GENETICS , *SINGLE nucleotide polymorphisms , *PYRAMIDAL tract - Abstract
Abstract Stroke leads to long term sensory, motor and cognitive impairments. Most patients experience some degree of spontaneous recovery which is mostly incomplete and varying greatly among individuals. The variation in recovery outcomes has been attributed to numerous factors including lesion size, corticospinal tract integrity, age, gender and race. It is well accepted that genetics play a crucial role in stroke incidence and accumulating evidence suggests that it is also a significant determinant in recovery. Among the number of genes and variations implicated in stroke recovery the val66met single nucleotide polymorphism (SNP) in the BDNF gene influences post-stroke plasticity in the most significant ways. Val66met is the most well characterized BDNF SNP and is common (40–50 % in Asian and 25–32% in Caucasian populations) in humans. It reduces activity-dependent BDNF release, dampens cortical plasticity and is implicated in numerous diseases. Earlier studies on the effects of val66met on stroke outcome and recovery presented primarily a maladaptive role. Novel findings however indicate a much more intricate interaction between val66met and stroke recovery which appears to be influenced by lesion location, post-stroke stage and age. This review will focus on the role of BDNF and val66met SNP in relation to stroke recovery and try to identify potential pathophysiologic mechanisms involved. The effects of age on val66met associated alterations in plasticity and potential consequences in terms of stroke are also discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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18. Behavioral outcome measures to improve experimental stroke research.
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Balkaya, Mustafa G., Trueman, Rebecca C., Boltze, Johannes, Corbett, Dale, and Jolkkonen, Jukka
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MEDICAL personnel , *COGNITION , *PSYCHOLOGY , *SENSORY conflict , *PERCEPTUAL disorders - Abstract
Functional recovery after an experimental stroke can be assessed by multiple behavioral tests, however, there is no consensus about which test to use in long-term stroke recovery studies or whether the tests are affected by stroke surgery, post-operative care or behavioral compensation due to repeated testing. This review describes the tests most commonly used to assess motor and sensorimotor function, cognition and mood in stroke animals. Although it is difficult to predict the direction of future research, it may be possible to prevent false-positive results by selecting an appropriate task or a battery of tasks. It is also expected that the upcoming stroke recovery recommendations and the improved dialogue between academy, industry and healthcare professionals will further promote translational success. [ABSTRACT FROM AUTHOR]
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- 2018
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19. Suramin-Induced Neurotoxicity: Preclinical Models and Neuroprotective Strategies.
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von der Ahe, David, Huehnchen, Petra, Balkaya, Mustafa, Peruzzaro, Sarah, Endres, Matthias, and Boehmerle, Wolfgang
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SURAMIN ,PROTOZOAN disease treatment ,ANTINEOPLASTIC agents ,DRUG side effects ,POLYNEUROPATHIES ,NIMODIPINE ,THERAPEUTICS - Abstract
Suramin is a trypan blue analogon originally developed to treat protozoan infections, which was found to have diverse antitumor effects. One of the most severe side effects in clinical trials was the development of a peripheral sensory-motor polyneuropathy. In this study, we aimed to investigate suramin-induced neuropathy with a focus on calcium (Ca
2+ ) homeostasis as a potential pathomechanism. Adult C57Bl/6 mice treated with a single injection of 250 mg/kg bodyweight suramin developed locomotor and sensory deficits, which were confirmed by electrophysiological measurements showing a predominantly sensory axonal-demyelinating polyneuropathy. In a next step, we used cultured dorsal root ganglia neurons (DRGN) as an in vitro cell model to further investigate underlying pathomechanisms. Cell viability of DRGN was significantly decreased after 24-hour suramin treatment with a calculated IC50 of 283 µM. We detected a suramin-induced Ca2+ influx into DRGN from the extracellular space, which could be reduced with the voltage-gated calcium channel (VGCC) inhibitor nimodipine. Co-incubation of suramin and nimodipine partially improved cell viability of DRGN after suramin exposure. In summary, we describe suramin-induced neurotoxic effects on DRGN as well as potentially neuroprotective agents targeting intracellular Ca2+ dyshomeostasis [ABSTRACT FROM AUTHOR]- Published
- 2018
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20. Interaction of ARC and Daxx: A Novel Endogenous Target to Preserve Motor Function and Cell Loss after Focal Brain Ischemia in Mice.
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Donath, Stefan, Junfeng An, Lee, Sabrina Lin Lin, Gertz, Karen, Datwyler, Anna Lena, Harms, Ulrike, Müller, Susanne, Farr, Tracy Deanne, Füchtemeier, Martina, Lättig-Tünnemann, Gisela, Lips, Janet, Foddis, Marco, Mosch, Larissa, Bernard, René, Grittner, Ulrike, Balkaya, Mustafa, Kronenberg, Golo, Dirnagl, Ulrich, Endres, Matthias, and Harms, Christoph
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CEREBRAL ischemia ,STROKE treatment ,TAT protein ,RNA interference ,CELL death - Abstract
The aim of this study was to explore the signaling and neuroprotective effect of transactivator of transcription (TAT) protein transduction of the apoptosis repressor with CARD (ARC) in in vitro and in vivo models of cerebral ischemia in mice. In mice, transient focal cerebral ischemia reduced endogenous ARC protein in neurons in the ischemic striatum at early reperfusion time points, and in primary neuronal cultures, RNA interference resulted in greater neuronal susceptibility to oxygen glucose deprivation (OGD). TAT.ARC protein delivery led to a dose-dependent better survival after OGD. Infarct sizes 72 h after 60 min middle cerebral artery occlusion (MCAo) were on average 30 ± 8% (mean ± SD; p = 0.005; T2-weighted MRI) smaller in TAT.ARC-treated mice (1 µg intraventricularly during MCAo) compared with controls. TAT.ARC-treated mice showed better performance in the pole test compared with TAT.β-Gal-treated controls. Importantly, post-stroke treatment (3 h after MCAo) was still effective in affording reduced lesion volume by 20 ± 7% (mean ± SD; p < 0.05) and better functional outcome compared with controls. Delayed treatment in mice subjected to 30 min MCAo led to sustained neuroprotection and functional behavior benefits for at least 28 d. Functionally, TAT.ARC treatment inhibited DAXX-ASK1-JNK signaling in the ischemic brain. ARC interacts with DAXX in a CARD-dependent manner to block DAXX trafficking and ASK1-JNK activation. Our work identifies for the first time ARC-DAXX binding to block ASK1-JNK activation as an ARC-specific endogenous mechanism that interferes with neuronal cell death and ischemic brain injury. Delayed delivery of TAT.ARC may present a promising target for stroke therapy. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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21. Migraine Mutations Impair Hippocampal Learning Despite Enhanced Long-Term Potentiation.
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Dilekoz, Ergin, Houben, Thijs, Eikermann-Haerter, Katharina, Balkaya, Mustafa, Lenselink, A. Mariette, Whalen, Michael J., Spijker, Sabine, Ferrari, Michel D., van den Maagdenberg, Arn M. J. M., and Ayata, Cenk
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MIGRAINE ,LONG-term potentiation ,HEMIPLEGICS ,LONG-term synaptic depression ,LABORATORY mice ,GENETICS - Abstract
To explain cognitive and memory difficulties observed in some familial hemiplegic migraine (FHM) patients, we examined hippocampal neurotransmission and plasticity in knock-in mice expressing the FHM type 1 (FHM1) R192Q gain-of function mutation in the CACNA1A gene that encodes the α
1A subunit of neuronal CaV2.1 channels. We determined stimulus intensity-response curves for anterior commissure-evoked hippocampal CA1 field potentials in strata pyramidale and radiatum and assessed neuroplasticity by inducing long-term potentiation (LTP) and long-term depression (LTD) in anesthetized mice in vivo. We also studied learning and memory using contextual fear-conditioning, Morris water maze, and novel object recognition tests. Hippocampal field potentials were significantly enhanced in R192Q mice compared with wild-type controls. Stimulus intensity-response curves were shifted to the left and displayed larger maxima in the mutants. LTP was augmented by twofold in R192Q mice, whereas LTD was unchanged compared with wild-type mice. R192Q mice showed significant spatial memory deficits in contextual fear-conditioning and Morris water maze tests compared with wild-type controls. Novel object recognition was not impaired in R192Q mice; however, mice carrying the more severe S218L CACNA1A mutation showed marked deficits in this test, suggesting a genotype-phenotype relationship. Thus, whereas FHM1 gain-of-function mutations enhance hippocampal excitatory transmission and LTP, learning and memory are paradoxically impaired, providing a possible explanation for cognitive changes detected in FHM. Data suggest that abnormally enhanced plasticity can be as detrimental to efficient learning as reduced plasticity and highlight how genetically enhanced neuronal excitability may impact cognitive function. [ABSTRACT FROM AUTHOR]- Published
- 2015
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22. Influence of Pigment Epithelium-Derived Factor on Outcome after Striatal Cerebral Ischemia in the Mouse.
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Zille, Marietta, Riabinska, Arina, Terzi, Menderes Yusuf, Balkaya, Mustafa, Prinz, Vincent, Schmerl, Bettina, Nieminen-Kelhä, Melina, Endres, Matthias, Vajkoczy, Peter, and Pina, Ana Luisa
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PIGMENT epithelium-derived factor ,HEALTH outcome assessment ,CEREBRAL ischemia ,LABORATORY mice ,CELL death ,CELL proliferation - Abstract
We here suggest that pigment epithelium-derived factor (PEDF) does not have an effect on lesion size, behavioral outcome, cell proliferation, or cell death after striatal ischemia in the mouse. PEDF is a neurotrophic factor with neuroprotective, antiangiogenic, and antipermeability effects. It influences self-renewal of neural stem cells and proliferation of microglia. We investigated whether intraventricular infusion of PEDF reduces infarct size and cell death, ameliorates behavioral outcome, and influences cell proliferation in the one-hour middle cerebral artery occlusion (MCAO) mouse model of focal cerebral ischemia. C57Bl6/N mice were implanted with PEDF or artificial cerebrospinal fluid (control) osmotic pumps and subjected to 60-minute MCAO 48 hours after pump implantation. They received daily BrdU injections for 7 days after MCAO in order to investigate cell proliferation. Infarct volumes were determined 24 hours after reperfusion using magnetic resonance imaging. We removed the pumps on day 5 and performed behavioral testing between day 7 and 21. Immunohistochemical staining was performed to determine the effect of PEDF on cell proliferation and cell death. Our model produced an ischemic injury confined solely to striatal damage. We detected no reduction in infarct sizes and cell death in PEDF- vs. CSF-infused MCAO mice. Behavioral outcome and cell proliferation did not differ between the groups. However, we cannot exclude that PEDF might work under different conditions in stroke. Further studies will elucidate the effect of PEDF treatment on cell proliferation and behavioral outcome in moderate to severe ischemic injury in the brain. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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23. Electrophysiological, behavioral and histological characterization of paclitaxel, cisplatin, vincristine and bortezomib-induced neuropathy in C57Bl/6 mice.
- Author
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Boehmerle, Wolfgang, Huehnchen, Petra, Peruzzaro, Sarah, Balkaya, Mustafa, and Endres, Matthias
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PACLITAXEL ,CISPLATIN ,VINCRISTINE ,BORTEZOMIB ,NEUROPATHY ,LABORATORY mice ,THERAPEUTICS - Abstract
Polyneuropathy is a frequent and potentially severe side effect of clinical tumor chemotherapy. The goal of this study was to characterize paclitaxel-, cisplatin-, vincristine- and bortezomib-induced neuropathy in C57BL/6 mice with a comparative approach. The phenotype of the animals was evaluated at four time points with behavioral and electrophysiological tests, followed by histology. Treatment protocols used in this study were well tolerated and induced a sensory and predominantly axonal polyneuropathy. Behavioral testing revealed normal motor coordination, whereas all mice receiving verum treatment developed mechanical allodynia and distinct gait alterations. Electrophysiological evaluation showed a significant decrease of the caudal sensory nerve action potential amplitude for all cytostatic agents and a moderate reduction of nerve conduction velocity for cisplatin and paclitaxel. This finding was confirmed by histological analysis of the sciatic nerve which showed predominantly axonal damage: Paclitaxel and vincristine affected mostly large myelinated fibers, bortezomib small myelinated fibers and cisplatin damaged all types of myelinated fibers to a similar degree. Neuropathic symptoms developed faster in paclitaxel and vincristine treated animals compared to cisplatin and bortezomib treatment. The animal models in this study can be used to elucidate pathomechanisms underlying chemotherapy-induced polyneuropathy and for the development of novel therapeutic and preventative strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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24. Characterization of long-term functional outcome in a murine model of mild brain ischemia
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Balkaya, Mustafa, Kröber, Jan, Gertz, Karen, Peruzzaro, Sarah, and Endres, Matthias
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CEREBRAL ischemia , *HEALTH outcome assessment , *LABORATORY mice , *STROKE , *ARTERIAL occlusions , *CEREBRAL arteries , *ANALYSIS of variance - Abstract
Abstract: Evaluation of functional outcome over the course of several weeks after ischemia is a key component in improving the clinical relevance of experimental stroke studies. Using a battery of behavioral tests, we characterized functional outcome in mice over 4 weeks following 30min of proximal middle cerebral artery occlusion (MCAo). We evaluated rotarod, chimney, pole and cylinder tests to assess short term functional deficits in a transient stroke model which induces infarcts mainly in the striatum. The corner test, adhesive removal test, cylinder test, catwalk, paw preference test and novel tests of rotation were evaluated for long-term functional outcome. Rotarod detected deficits within the first week and pole test was reliable up to intermediate time points after MCAo. Corner test, adhesive removal test, catwalk and paw preference test detected deficits for up to 4 weeks, as did the novel corner rotation and bowl tests. Chimney and cylinder test did not prove useful in our model of mild stroke. In summary, we established the pole test and rotarod as useful tools to evaluate sensory motor deficits early after mild stroke, and corner test and adhesive removal test at later time-points. Alternatively, corner rotation may be a suitable test of long-term function. Test batteries may be further complemented by catwalk and paw preference test for clinically relevant deficits. There was no correlation of behavioral outcome with lesion size at 28 days, and determining whether these tests are useful for detecting a potential benefit of neuroprotective or regenerative therapies requires further testing. [Copyright &y& Elsevier]
- Published
- 2013
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25. Exofocal Dopaminergic Degeneration as Antidepressant Target in Mouse Model of Poststroke Depression
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Kronenberg, Golo, Balkaya, Mustafa, Prinz, Vincent, Gertz, Karen, Ji, Shengbo, Kirste, Imke, Heuser, Isabella, Kampmann, Björn, Hellmann-Regen, Julian, Gass, Peter, Sohr, Reinhard, Hellweg, Rainer, Waeber, Christian, Juckel, Georg, Hörtnagl, Heide, Stumm, Ralf, and Endres, Matthias
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DOPAMINERGIC mechanisms , *NEURODEGENERATION , *ANTIDEPRESSANTS , *MENTAL depression , *DYNORPHINS , *AUTORADIOGRAPHY , *LABORATORY mice - Abstract
Background: Although poststroke depression (PSD) is a frequent chronic complication of stroke with high relevance for outcome and survival, underlying pathomechanisms remain inadequately understood. This may be because suitable animal models are largely lacking and existing models are poorly characterized. Methods: Male 129/SV mice were subjected to 30-min middle cerebral artery occlusion (MCAo)/reperfusion and serial magnetic resonance imaging scans. A subset of animals received selective serotonin reuptake inhibitor citalopram starting 7 days after MCAo. Behavioral assessment was performed at 14 weeks. To identify biological correlates of PSD, we quantified corticosterone levels in serum and brain-derived neurotrophic factor levels in brain. The integrity of the mesolimbic dopaminergic system was assessed using tyrosine hydroxylase and dynorphin in situ hybridizations as well as dopamine transporter autoradiography. Results: Left, but not right, MCAo, elicited anhedonia and increased anxiety and despair. This depression-like syndrome was associated with alterations in the mesolimbic reward system. MCAo resulted in delayed degeneration of dopaminergic neurons in ipsilateral midbrain, which was accompanied by reduced dopamine concentrations and decreased levels of dopamine transporter density along with increased brain-derived neurotrophic factor protein levels in ischemic striatum and increased dynorphin messenger RNA expression in nucleus accumbens. Chronic antidepressant treatment initiated as late as 7 days after stroke reversed the behavioral phenotype, prevented degeneration of dopaminergic midbrain neurons, and attenuated striatal atrophy at 4 months. Conclusions: Our results highlight the importance of the dopaminergic system for the development of PSD. Prevention of secondary neurodegeneration by antidepressants may provide a novel target for subacute stroke therapy. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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26. Effects of the PDE5-inhibitor vardenafil in a mouse stroke model
- Author
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Royl, Georg, Balkaya, Mustafa, Lehmann, Sabrina, Lehnardt, Seija, Stohlmann, Katharina, Lindauer, Ute, Endres, Matthias, Dirnagl, Ulrich, and Meisel, Andreas
- Subjects
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PHOSPHODIESTERASES , *BRAIN disease treatment , *CEREBROVASCULAR disease , *LABORATORY mice , *CEREBRAL circulation , *ARTERIAL occlusions , *PERCEPTUAL-motor processes , *MENTAL depression , *ENZYME inhibitors - Abstract
Abstract: Recent experimental studies in rodents suggest that treatment with inhibitors of phosphodiesterase type 5 (PDE5) (tadalafil, sildenafil, zaprinast) not only increases cerebral blood flow but also improves functional recovery after stroke. Here, we investigated in a mouse model of stroke the effects of vardenafil on survival, functional outcome and lesion size after experimental stroke. Mice were subjected to experimental stroke by occlusion of the middle cerebral artery (MCAO) for 45 min. A group of mice received vardenafil (twice 10 mg/kg body weight per day orally over 14 days) starting 3 h after MCAO. Control animals received the vehicle only. Survival, body weight, and behavior were monitored over 4 weeks and brain lesions were measured by T2-weighted MRI, hematoxylin/eosin — as well as GFAP-staining of cryostat sections, subsequently. The mortality in MCAO-operated animals amounted to 45% until day 10 after stroke and no significant difference in survival between the vardenafil- and vehicle-treatment groups was observed. Compared to sham-operated animals, MCAO-operated mice from both treatment groups demonstrated a significant weight loss until day 5 and regained their body weight by day 14 after ischemia. There was no significant difference between the vardenafil and vehicle-treated MCAO groups. In behavioral studies (sucrose consumption and pole test), analyzing sensorimotor functions as well as a parameter of depression-like symptoms, we observed no significant effect of vardenafil treatment on functional recovery in our model of stroke. Although we observed a trend towards less hemispherical atrophy in the vardenafil compared to the vehicle-treated group four weeks after MCAO our data do not suggest a functionally relevant CNS-tissue protective or regenerative effect in murine stroke. [Copyright &y& Elsevier]
- Published
- 2009
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27. Folate Deficiency Induces Neurodegeneration and Brain Dysfunction in Mice Lacking Uracil DNA Glycosylase.
- Author
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Kronenberg, Golo, Harms, Christoph, Sobol, Robert W., Cardozo-Pelaez, Fernando, Linhart, Heinz, Winter, Benjamin, Balkaya, Mustafa, Gertz, Karen, Gay, Shanna B., Cox, David, Eckart, Sarah, Ahmadi, Michael, Juckel, Georg, Kempermann, Gerd, Hellweg, Rainer, Sohr, Reinhard, Hörtnagl, Heide, Wilson, Samuel H., Jaenisch, Rudolf, and Endres, Matthias
- Subjects
NUCLEIC acids ,HOMOCYSTEINE ,NERVOUS system ,BIOCHEMISTRY ,HUNTINGTON disease ,GLUTATHIONE - Abstract
Folate deficiency and resultant increased homocysteine levels have been linked experimentally and epidemiologically with neurodegenerative conditions like stroke and dementia. Moreover, folate deficiency has been implicated in the pathogenesis of psychiatric disorders, most notably depression.Wehypothesized that the pathogenic mechanisms include uracil misincorporation and, therefore, analyzed the effects of folate deficiency in mice lacking uracil DNA glycosylase (Ung-/-) versus wild-type controls. Folate depletion increased nuclear mutation rates in Ung-/- embryonic fibroblasts, and conferred death of cultured Ung-/- hippocampal neurons. Feeding animals a folate-deficient diet (FD) for 3 months induced degeneration of CA3 pyramidal neurons in Ung-/- but not Ung+/+ mice along with decreased hippocampal expression of brain-derived neurotrophic factor protein and decreased brain levels of antioxidant glutathione. Furthermore, FD induced cognitive deficits and mood alterations such as anxious and despair-like behaviors that were aggravated in Ung-/- mice. Independent of Ung genotype, FD increased plasma homocysteine levels, altered brain monoamine metabolism, and inhibited adult hippocampal neurogenesis. These results indicate that impaired uracil repair is involved in neurodegeneration and neuropsychiatric dysfunction induced by experimental folate deficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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28. Selective ROCK2 inhibition in focal cerebral ischemia
- Author
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Hyun Lee, Jeong, Zheng, Yi, von Bornstadt, Daniel, Wei, Ying, Balcioglu, Aygul, Daneshmand, Ali, Yalcin, Nilufer, Yu, Esther, Herisson, Fanny, Atalay, Yahya B, Kim, Maya H, Ahn, Yong-Joo, Balkaya, Mustafa, Sweetnam, Paul, Schueller, Olivier, Poyurovsky, Masha V, Kim, Hyung-Hwan, Lo, Eng H, Furie, Karen L, and Ayata, Cenk
- Abstract
Objective: Rho-associated kinase (ROCK) is a key regulator of numerous processes in multiple cell types relevant in stroke pathophysiology. ROCK inhibitors have improved outcome in experimental models of acute ischemic or hemorrhagic stroke. However, the relevant ROCK isoform (ROCK1 or ROCK2) in acute stroke is not known. Methods: We characterized the pharmacodynamic and pharmacokinetic profile, and tested the efficacy and safety of a novel selective ROCK2 inhibitor KD025 (formerly SLx-2119) in focal cerebral ischemia models in mice. Results: KD025 dose-dependently reduced infarct volume after transient middle cerebral artery occlusion. The therapeutic window was at least 3 h from stroke onset, and the efficacy was sustained for at least 4 weeks. KD025 was at least as efficacious in aged, diabetic or female mice, as in normal adult males. Concurrent treatment with atorvastatin was safe, but not additive or synergistic. KD025 was also safe in a permanent ischemia model, albeit with diminished efficacy. As one mechanism of protection, KD025 improved cortical perfusion in a distal middle cerebral artery occlusion model, implicating enhanced collateral flow. Unlike isoform-nonselective ROCK inhibitors, KD025 did not cause significant hypotension, a dose-limiting side effect in acute ischemic stroke. Interpretation Altogether, these data show that KD025 is efficacious and safe in acute focal cerebral ischemia in mice, implicating ROCK2 as the relevant isoform in acute ischemic stroke. Data suggest that selective ROCK2 inhibition has a favorable safety profile to facilitate clinical translation.
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- 2013
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29. Anxious and Hyperactive Phenotype Following Brief Ischemic Episodes in Mice
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Winter, Benjamin, Juckel, Georg, Viktorov, Ilya, Katchanov, Juri, Gietz, Andrea, Sohr, Reinhard, Balkaya, Mustafa, Hörtnagl, Heide, and Endres, Matthias
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BEHAVIOR , *MICE , *CEREBRAL arteries , *ARTERIES , *ARTERIAL occlusions - Abstract
Background: Poststroke emotional and behavioral abnormalities have an impact on outcome but have scarcely been characterized in animal models. We tested whether brief ischemic episodes induce behavioral changes in mice. Methods: 129/Sv mice were subjected to 30-min occlusion of left or right middle cerebral artery (MCAo) followed by reperfusion or sham operation (n = 9 or 10 per group). Eight to ten weeks later, mice were tested for spontaneous locomotor activity, anxiety in the elevated plus maze, and depressive behavior in the modified Porsolt forced swim test. Outcome was correlated to monoamine and amino acid levels and compared with histologic damage at 10 weeks. Results: Ischemia was associated with increased activity (right MCAo) and anxiety (left MCAo), but not poststroke depression. Noradrenaline increased by 30%¿45% in the ischemic striatum and correlated with locomotor activity (r = .48); dopamine and homovanillinic acid were decreased compared with sham. The lesion was confined to the striatum, and scattered neuronal death was observed in a number of remote brain regions. Conclusion: Brief ischemic episodes in the mouse induce an anxious, hyperactive but not depressive phenotype that may relate to left versus right hemispheric lesion location, alterations in brain monoamine levels, and selective neurodegeneration. [Copyright &y& Elsevier]
- Published
- 2005
- Full Text
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